Displaying publications 1 - 20 of 79 in total

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  1. Differences in protein changes between stress-induced premature senescence and replicative senescence states
    Aan GJ, Hairi HA, Makpol S, Rahman MA, Karsani SA
    Electrophoresis, 2013 Aug;34(15):2209-17.
    PMID: 23712505 DOI: 10.1002/elps.201300086
    Replicative senescence and stress-induced premature senescence (SIPS) cells are known to share certain traits. However, whether these cells are different at the protein level is unclear. Thus, this study has utilized proteomics to identify differences in the proteomes of replicative senescence and SIPS cells compared to normal cells. Replicative senescence was induced by serial passage of normal cells in culture. SIPS was established by exposure to H2 O2 at a subcytotoxic concentration of 20 μM for two weeks. Following 2DE, protein profiles were compared and protein spots that changed in abundance were identified by MALDI-TOF MS. Quantitative real-time RT-PCR was then performed to evaluate the transcript expression of selected altered proteins. A total of 24 and 10 proteins were found to have changed in abundance in replicative senescence and SIPS cells, respectively, when compared to young cells. Quantitative RT-PCR revealed that nine genes showed the same direction of change as observed in the proteomics analysis. Very little overlap was observed between proteins that changed in replicative senescence and SIPS cells, suggesting that although both SIPS and replicative senescence cells share hallmarks of cellular senescence, they were different in terms of proteins that changed in abundance.
    Matched MeSH terms: Cell Aging/drug effects; Cell Aging/physiology*
  2. In vitro modulation of extracellular matrix genes by stingless bee honey in cellular aging of human dermal fibroblast cells
    Abdul Malik N, Mohamed M, Mustafa MZ, Zainuddin A
    J Food Biochem, 2020 01;44(1):e13098.
    PMID: 31746481 DOI: 10.1111/jfbc.13098
    This study determined the antiaging effect of stingless bee honey on the expression of extracellular matrix genes. MTS (3-(4,5-dimethylthiazol-2-yl)-5-(3-carboxymethoxyphenyl)-2-(4-sulfophenyl)-2H-tetrazolium, inner salt) assay was performed for determination of optimum concentration and incubation time of stingless bee honey. Gene expression of matrix metalloproteinase-1 (MMP-1) and collagen type Ⅰ (COL1A1) were analyzed using real time reverse transcriptase polymerase chain reaction technique. Incubation with stingless bee honey at concentration of 0.02% for 72 hr showed significant increase in the viability of human fibroblast cells. Stingless bee honey significantly downregulates metalloproteinase-1 gene expression in both pre-senescence and senescence fibroblast cells and upregulates collagen type Ⅰ gene expression in senescence fibroblast cells. In conclusion, stingless bee honey potentially delayed skin aging through modulation of extracellular matrix genes. PRACTICAL APPLICATIONS: Changes of the extracellular matrix regulation promote skin aging. Stingless bee honey is a good source of natural antioxidant which potentially delays skin aging. This study demonstrated that stingless bee honey beneficially increases collagen type Ⅰ expression and decreases MMP-1 expression during cellular aging of human dermal fibroblast cells.
    Matched MeSH terms: Cell Aging
  3. Fulltext Effect of perivitelline fluid from horseshoe crab on the expression of cell cycle regulatory genes in human dental pulp stem cells
    Abdul Qawee Rani, Thirumulu Ponnuraj Kannan, Nur Izyan Azmi, Najian Binti Ibrahim, Nor Shamsuria Omar, Ahmad Azlina, et al.
    Archives of Orofacial Sciences, 2016;11(1):7-14.
    MyJurnal
    Perivitelline fluid (PVF) of the horseshoe crab embryo has been reported to possess an important role
    during embryogenesis by promoting cell proliferation. This study aims to evaluate the effect of PVF on the
    expression of cell cycle regulatory genes from human dental pulp stem cells (DPSCs) between different cell
    passages viz. 4, 5, 6. The cells were treated with a single dose of PVF (26.89 mg/ml) PVF. Gene expression was
    quantified for CDKNA2A, PTEN, MDM2 and TP53 genes using reverse transcriptase PCR. CDKN2A and MDM2
    expression for treated and untreated DPSCs, expressed a similar pattern of expression. The higher expression of
    CDKN2A showed that the treatment increased cell proliferation and prevented cell senescence. DPSCs with PVF
    treatment showed increased expression of MDM2 at passage 4 and drastically declined expression at passage 5
    and slightly increased at passage 6. TP53 expression of DPSCs treated group showed a higher expression
    compared to untreated group. On the other hand, the expression of PTEN in DPSCs treated group started to
    increase from passage 5 to 6. However, on the whole, the PTEN expression was higher than the untreated group
    in all the passages studied here. The results showed that PVF could enhance cell cycle regulatory gene
    expression in DPSCs as indicated by the higher expression of all the genes considered in this study at different
    cell passages in the treated group compared to the untreated group. Mann Whitney test was utilized to determine
    the significance of cell cycle regulatory genes expression between treated and untreated group. Significant
    difference in expression of genes between the treated and untreated groups were found at all passages except
    for CDKN2A gene whereby, its expression was not significantly different at passage 5 though it did express
    slightly higher in PVF treated DPSCs.
    Matched MeSH terms: Cell Aging
  4. Apoptosis changes and SA-beta galactosidase expression in stress-induced premature senescence (SIPS) model of human skin fibroblasts
    Abdul Rahim N, Makpol S, Chua KH, Yusof YA, Top GM, Ngah WZ
    Med J Malaysia, 2008 Jul;63 Suppl A:71-2.
    PMID: 19024989
    Stress-induced premature senescence (SIPS) model is in vitro model of cellular aging. In this study, apoptosis was evaluated in SIPS model and in replicative senescent fibroblasts. We also compared the activity of senescence-associated beta-galactosidase (SA-beta gal) as a biomarker of cellular aging. Our results suggested that SIPS model and senescent fibroblasts might share similar mechanism of aging and apoptosis pathway.
    Matched MeSH terms: Cell Aging/drug effects*
  5. Fulltext Senescence-related changes in gene expression of peripheral blood mononuclear cells from octo/nonagenarians compared to their offspring
    Abdul Rahman A, Abdul Karim N, Abdul Hamid NA, Harun R, Ngah WZ
    Oxid Med Cell Longev, 2013;2013:189129.
    PMID: 24381713 DOI: 10.1155/2013/189129
    Mechanisms determining both functional rate of decline and the time of onset in aging remain elusive. Studies of the aging process especially those involving the comparison of long-lived individuals and young controls are fairly limited. Therefore, this research aims to determine the differential gene expression profile in related individuals from villages in Pahang, Malaysia. Genome-wide microarray analysis of 18 samples of peripheral blood mononuclear cells (PBMCs) from two groups: octo/nonagenarians (80-99 years old) and their offspring (50.2 ± 4.0 years old) revealed that 477 transcripts were age-induced and 335 transcripts were age-repressed with fold changes ≥1.2 in octo/nonagenarians compared to offspring. Interestingly, changes in gene expression were associated with increased capacity for apoptosis (BAK1), cell cycle regulation (CDKN1B), metabolic process (LRPAP1), insulin action (IGF2R), and increased immune and inflammatory response (IL27RA), whereas response to stress (HSPA8), damage stimulus (XRCC6), and chromatin remodelling (TINF2) pathways were downregulated in octo/nonagenarians. These results suggested that systemic telomere maintenance, metabolism, cell signalling, and redox regulation may be important for individuals to maintain their healthy state with advancing age and that these processes play an important role in the determination of the healthy life-span.
    Matched MeSH terms: Cell Aging/genetics*
  6. Fulltext Senescence affects endothelial cells susceptibility to dengue virus infection
    AbuBakar S, Shu MH, Johari J, Wong PF
    Int J Med Sci, 2014;11(6):538-44.
    PMID: 24782642 DOI: 10.7150/ijms.7896
    Alteration in the endothelium leading to increased vascular permeability contributes to plasma leakage seen in dengue hemorrhagic fever (DHF) and dengue shock syndrome (DSS). An earlier study showed that senescent endothelial cells (ECs) altered the ECs permeability. Here we investigated the susceptibility of senescing human umbilical vein endothelial cells (HUVECs) to dengue virus infection and determined if dengue virus infection induces HUVECs senescence. Our results suggest that DENV type-2 (DENV-2) foci forming unit (FFU) and extracellular virus RNA copy number were reduced by at least 35% and 85% in infection of the intermediate young and early senescent HUVECs, respectively, in comparison to infection of young HUVECs. No to low infectivity was recovered from infection of late senescent HUVECs. DENV infection also increases the percentage of HUVECs expressing senescence-associated (SA)-β-gal, cells arrested at the G2/M phase or 4N DNA content stage and cells with enlarged morphology, indicative of senescing cells. Alteration of HUVECs morphology was recorded using impedance-based real-time cell analysis system following DENV-2 infection. These results suggest that senescing HUVECs do not support DENV infection and DENV infection induces HUVECs senescence. The finding highlights the possible role of induction of senescence in DENV infection of the endothelial cells.
    Matched MeSH terms: Cell Aging/genetics*
  7. Potential role of ergothioneine rich mushroom as anti-aging candidate through elimination of neuronal senescent cells
    Apparoo Y, Wei Phan C, Rani Kuppusamy U, Chan EWC
    Brain Res, 2024 Feb 01;1824:148693.
    PMID: 38036238 DOI: 10.1016/j.brainres.2023.148693
    Oxidative stress can upset the antioxidant balance and cause accelerated aging including neurodegenerative diseases and decline in physiological function. Therefore, an antioxidant-rich diet plays a crucial role in healthy aging. This study aimed to identify and quantify mushrooms with the highest ergothioneine content through HPLC analysis and evaluate their anti-aging potential as a natural antioxidant and antisenescence in HT22 cells. Among the 14 evaluated mushroom species, Lentinula edodes (LE), shiitake mushroom contains the highest ergothioneine content and hence was used for the in-vitro studies. The cells were preincubated with ethanolic extract of ergothioneine-rich mushroom and the equimolar concentration of EGT on t-BHP-induced senescence HT22 cells. The extract was analyzed for its free radical scavenging properties using DPPH and ABTS methods. Then, the neuroprotective effect was conducted by measuring the cell viability using MTT. Senescence-associated markers and ROS staining were also analyzed. Our results revealed that a low dose of t-BHP reduces cell viability and induces senescence in HT22 cells as determined through β-galactosidase staining and expressions of P16INK4a, P21CIPL which are the markers of cellular senescence. However, the pretreatment with ethanolic extract of LE for 8 h significantly improved the cell viability, reversed the t-BHP-induced cellular senescence in the neuronal cells, and reduced the reactive oxygen species visualized through DCFH-DA staining. These results suggest that ergothioneine-rich mushroom is a potential candidate for anti-aging exploration through the elimination of senescent cells.
    Matched MeSH terms: Cell Aging
  8. Young adult survivors of childhood acute lymphoblastic leukemia show evidence of chronic inflammation and cellular aging
    Ariffin H, Azanan MS, Abd Ghafar SS, Oh L, Lau KH, Thirunavakarasu T, et al.
    Cancer, 2017 Nov 01;123(21):4207-4214.
    PMID: 28654149 DOI: 10.1002/cncr.30857
    BACKGROUND: Large epidemiologic studies have reported the premature onset of age-related conditions, such as ischemic heart disease and diabetes mellitus, in childhood cancer survivors, decades earlier than in their peers. The authors investigated whether young adult survivors of childhood acute lymphoblastic leukemia (ALL) have a biologic phenotype of cellular ageing and chronic inflammation.

    METHODS: Plasma inflammatory cytokines were measured using a cytometric bead array in 87 asymptomatic young adult survivors of childhood ALL (median age, 25 years; age range, 18-35 years) who attended annual follow-up clinic and compared with healthy, age-matched and sex-matched controls. Leukocyte telomere length (LTL) was measured using Southern blot analysis.

    RESULTS: Survivors had significant elevation of plasma interleukin-2 (IL-2), IL-10, IL-17a, and high-sensitivity C-reactive protein levels (all P 0.8 mg/dL) was related to increased odds of having metabolic syndrome (odds ratio, 7.256; 95% confidence interval, 1.501-35.074). Survivors also had significantly shorter LTL compared with controls (median, 9866 vs 10,392 base pairs; P = .021). Compared with published data, LTL in survivors was similar to that in healthy individuals aged 20 years older. Survivors who received cranial irradiation had shorter LTL compared with those who had not (P = .013).

    CONCLUSIONS: Asymptomatic young adult survivors of childhood ALL demonstrate a biologic profile of chronic inflammation and telomere attrition, consistent with an early onset of cellular processes that drive accelerated aging. These processes may explain the premature development of age-related chronic conditions in childhood cancer survivors. Understanding their molecular basis may facilitate targeted interventions to disrupt the accelerated aging process and its long-term impact on overall health. Cancer 2017;123:4207-4214. © 2017 American Cancer Society.

    Matched MeSH terms: Cell Aging*
  9. Isolation, Expansion, and Characterization of Wharton's Jelly-Derived Mesenchymal Stromal Cell: Method to Identify Functional Passages for Experiments
    Aung SW, Abu Kasim NH, Ramasamy TS
    Methods Mol Biol, 2019;2045:323-335.
    PMID: 31201682 DOI: 10.1007/7651_2019_242
    The therapeutic potential of human mesenchymal stromal stem cells (hMSCs) for cell-based therapeutic is greatly influenced by the in vitro culture condition including the culture conditions. Nevertheless, there are many technical challenges needed to be overcome prior to the clinical use including the quantity, quality, and heterogeneity of the cells. Therefore, it is necessary to develop a stem cell culture procedure or protocol for cell expansion in order to generate reproducible and high-quality cells in accordance with good manufacturing practice for clinical and therapeutic purposes. Here we assessed the MSCs characteristic of human Wharton's jelly mesenchymal stromal cells in in vitro culture according to the criteria established by the International Society for Cellular Therapy. Besides, the viability of the WJMSCs was determined in order to increase the confidence that the cells are employed to meet the therapeutic efficacy.
    Matched MeSH terms: Cell Aging/physiology
  10. Increased frequency of late-senescent T cells lacking CD127 in chronic hepatitis C disease
    Barathan M, Mohamed R, Saeidi A, Vadivelu J, Chang LY, Gopal K, et al.
    Eur J Clin Invest, 2015 May;45(5):466-74.
    PMID: 25721991 DOI: 10.1111/eci.12429
    Hepatitis C virus (HCV) causes persistent disease in ~85% of infected individuals, where the viral replication appears to be tightly controlled by HCV-specific CD8+ T cells. Accumulation of senescent T cells during infection results in considerable loss of functional HCV-specific immune responses.
    Matched MeSH terms: Cell Aging/immunology*
  11. Fulltext Disruptive chemicals, senescence and immortality
    Carnero A, Blanco-Aparicio C, Kondoh H, Lleonart ME, Martinez-Leal JF, Mondello C, et al.
    Carcinogenesis, 2015 Jun;36 Suppl 1(Suppl 1):S19-37.
    PMID: 26106138 DOI: 10.1093/carcin/bgv029
    Carcinogenesis is thought to be a multistep process, with clonal evolution playing a central role in the process. Clonal evolution involves the repeated 'selection and succession' of rare variant cells that acquire a growth advantage over the remaining cell population through the acquisition of 'driver mutations' enabling a selective advantage in a particular micro-environment. Clonal selection is the driving force behind tumorigenesis and possesses three basic requirements: (i) effective competitive proliferation of the variant clone when compared with its neighboring cells, (ii) acquisition of an indefinite capacity for self-renewal, and (iii) establishment of sufficiently high levels of genetic and epigenetic variability to permit the emergence of rare variants. However, several questions regarding the process of clonal evolution remain. Which cellular processes initiate carcinogenesis in the first place? To what extent are environmental carcinogens responsible for the initiation of clonal evolution? What are the roles of genotoxic and non-genotoxic carcinogens in carcinogenesis? What are the underlying mechanisms responsible for chemical carcinogen-induced cellular immortality? Here, we explore the possible mechanisms of cellular immortalization, the contribution of immortalization to tumorigenesis and the mechanisms by which chemical carcinogens may contribute to these processes.
    Matched MeSH terms: Cell Aging/drug effects*
  12. Fulltext Oxidative stress-induced premature senescence in Wharton's jelly-derived mesenchymal stem cells
    Choo KB, Tai L, Hymavathee KS, Wong CY, Nguyen PN, Huang CJ, et al.
    Int J Med Sci, 2014;11(11):1201-7.
    PMID: 25249788 DOI: 10.7150/ijms.8356
    On in vitro expansion for therapeutic purposes, the regenerative potentials of mesenchymal stem cells (MSCs) decline and rapidly enter pre-mature senescence probably involving oxidative stress. To develop strategies to prevent or slow down the decline of regenerative potentials in MSC culture, it is important to first address damages caused by oxidative stress-induced premature senescence (OSIPS). However, most existing OSIPS study models involve either long-term culture to achieve growth arrest or immediate growth arrest post oxidative agent treatment and are unsuitable for post-induction studies.
    Matched MeSH terms: Cell Aging/drug effects
  13. Fulltext Dietary macronutrients and the aging liver sinusoidal endothelial cell
    Cogger VC, Mohamad M, Solon-Biet SM, Senior AM, Warren A, O'Reilly JN, et al.
    Am J Physiol Heart Circ Physiol, 2016 05 01;310(9):H1064-70.
    PMID: 26921440 DOI: 10.1152/ajpheart.00949.2015
    Fenestrations are pores within the liver sinusoidal endothelial cells (LSECs) that line the sinusoids of the highly vascularized liver. Fenestrations facilitate the transfer of substrates between blood and hepatocytes. With pseudocapillarization of the hepatic sinusoid in old age, there is a loss of fenestrations. LSECs are uniquely exposed to gut-derived dietary and microbial substrates delivered by the portal circulation to the liver. Here we studied the effect of 25 diets varying in content of macronutrients and energy on LSEC fenestrations using the Geometric Framework method in a large cohort of mice aged 15 mo. Macronutrient distribution rather than total food or energy intake was associated with changes in fenestrations. Porosity and frequency were inversely associated with dietary fat intake, while fenestration diameter was inversely associated with protein or carbohydrate intake. Fenestrations were also linked to diet-induced changes in gut microbiome, with increased fenestrations associated with higher abundance of Firmicutes and reduced abundance of Bacteroidetes Diet-induced changes in levels of several fatty acids (C16:0, C19:0, and C20:4) were also significantly inversely associated with fenestrations, suggesting a link between dietary fat and modulation of lipid rafts in the LSECs. Diet influences fenestrations and these data reflect both the key role of the LSECs in clearing gut-derived molecules from the vascular circulation and the impact these molecules have on LSEC morphology.
    Matched MeSH terms: Cell Aging*
  14. Fulltext Piper betle L. Modulates Senescence-Associated Genes Expression in Replicative Senescent Human Diploid Fibroblasts
    Durani LW, Khor SC, Tan JK, Chua KH, Mohd Yusof YA, Makpol S
    Biomed Res Int, 2017;2017:6894026.
    PMID: 28596968 DOI: 10.1155/2017/6894026
    Piper betle
    (PB) is a traditional medicine that is widely used to treat different diseases around Asian region. The leaf extracts contain various bioactive compounds, which were reported to have antidiabetic, antibacterial, anti-inflammatory, antioxidant, and anticancer effects. In this study, the effect of PB aqueous extracts on replicative senescent human diploid fibroblasts (HDFs) was investigated by determining the expressions of senescence-associated genes using quantitative PCR. Our results showed that PB extracts at 0.4 mg/ml can improve cell proliferation of young (143%), presenescent (127.3%), and senescent (157.3%) HDFs. Increased expressions ofPRDX6,TP53,CDKN2A,PAK2, andMAPK14were observed in senescent HDFs compared to young and/or presenescent HDFs. Treatment with PB extracts modulates the transcriptional profile changes in senescent HDFs. By contrast, expressions ofSOD1increased, whereasGPX1,PRDX6,TP53,CDKN2A,PAK2, andMAPK14were decreased in PB-treated senescent HDFs compared to untreated senescent HDFs. In conclusion, this study indicates the modulation of PB extracts on senescence-associated genes expression of replicative senescent HDFs. Further studies warrant determining the mechanism of PB in modulating replicative senescence of HDFs through these signaling pathways.
    Matched MeSH terms: Cell Aging/drug effects*
  15. Gene expression characteristic in human auricular cartilage tissue engineering
    Farah Wahida I, Aminuddin BS, Munirah S, Chua KH, Fuzina NH, Isa MR, et al.
    Med J Malaysia, 2004 May;59 Suppl B:190-1.
    PMID: 15468882
    This study was to assess collagen type II and collagen type I gene expression in tissue-engineered human auricular: cartilage formed via tissue engineering technique. Large-scale culture expansions were transformed into 3D in vitro construct and were implanted subcutaneously on the dorsal of athymic mice. After 8 weeks, explanted construct was processed in the same manner of native cartilage to facilitate cells for gene expression analysis. Isolated cells from in vivo construct demonstrated expression of type II collagen gene comparable to native cartilage. This study verified that tissue-engineered auricular cartilage expressed cartilage specific gene, collagen type II after in vivo maturation.
    Matched MeSH terms: Cell Aging/physiology
  16. Effect of Cell Age on Uptake and Toxicity of Nanoparticles: The Overlooked Factor at the Nanobio Interface
    Foroozandeh P, Aziz AA, Mahmoudi M
    ACS Appl Mater Interfaces, 2019 Oct 30;11(43):39672-39687.
    PMID: 31633323 DOI: 10.1021/acsami.9b15533
    Clinical translation of nanotechnologies has limited success, at least in part, due to the existence of several overlooked factors on the nature of the nanosystem (e.g., physicochemical properties of nanoparticles), nanobio interfaces (e.g., protein corona composition), and the cellular characteristics (e.g., cell type). In the past decade, several ignored factors including personalized and disease-specific protein corona (a layer of formed biomolecules at the surface of nanoparticles upon their entrance into a biological fluid), incubating temperature, local temperature gradient, cell shape, and cell sex has been introduced. Here, it was hypothesized and validated cell age as another overlooked factor in the field of nanomedicine. To test our hypothesis, cellular toxicity and uptake profiles of our model nanoparticles (i.e., PEGylated quantum dots, QDs) were probed in young and senescent cells (i.e., IMR90 fibroblast cells from human fetal lung and CCD841CoN epithelial cells from human fetal colon) and the outcomes revealed substantial dependency of cell-nanoparticles interactions to the cell age. For example, it was observed that the PEGylated QDs were acutely toxic to senescent IMR90 and CCD841CoN cells, leading to lysosomal membrane permeabilization which caused cell necrosis; in contrast, the young cells were resilient to the exact same amount of QDs and the same incubation time. It was also found that the formation of protein corona could delay the QDs' toxicity on senescent cells. These findings suggest that the cellular aging process have a capacity to cause deteriorative effects on their organelles and normal functions. The outcomes of this study suggest the proof-of-concept that cell age may have critical role in biosystem responses to nanoparticle technologies. Therefore, the effect of cell age should be carefully considered on the nanobio interactions and the information about cellular age (e.g., passage number and age of the cell donor) should be included in the nanomedicine papers to facilitate clinical translation of nanotechnologies and to help scientists to better design and produce safe and efficient diagnostic/therapeutic age-specific nanoparticles.
    Matched MeSH terms: Cell Aging/drug effects*
  17. Valproic acid: growth inhibition of head and neck cancer by induction of terminal differentiation and senescence
    Gan CP, Hamid S, Hor SY, Zain RB, Ismail SM, Wan Mustafa WM, et al.
    Head Neck, 2012 Mar;34(3):344-53.
    PMID: 21438066 DOI: 10.1002/hed.21734
    There are limited studies on the effects of drugs that modulate epigenetic regulation for head and neck squamous cell carcinoma (HNSCC). This study determined the effect of valproic acid (VPA) on HNSCC.
    Matched MeSH terms: Cell Aging/drug effects*
  18. Fulltext IFITM3 knockdown reduces the expression of CCND1 and CDK4 and suppresses the growth of oral squamous cell carcinoma cells
    Gan CP, Sam KK, Yee PS, Zainal NS, Lee BKB, Abdul Rahman ZA, et al.
    Cell Oncol (Dordr), 2019 Aug;42(4):477-490.
    PMID: 30949979 DOI: 10.1007/s13402-019-00437-z
    PURPOSE: Oral squamous cell carcinoma (OSCC) is a challenging disease to treat. Up to 50% of OSCC patients with advanced disease develop recurrences. Elucidation of key molecular mechanisms underlying OSCC development may provide opportunities to target specific genes and, thus, to improve patient survival. In this study, we examined the expression and functional role of interferon transmembrane protein 3 (IFITM3) in OSCC development.

    METHODS: The expression of IFITM3 in OSCC and normal oral mucosal tissues was assessed by qRT-PCR and immunohistochemistry. The role of IFITM3 in driving OSCC cell proliferation and survival was examined using siRNA-mediated gene knockdown, and the role of IFITM3 in driving cell cycle regulators was examined using Western blotting.

    RESULTS: We found that IFITM3 is overexpressed in more than 79% of primary OSCCs. We also found that IFITM3 knockdown led to impaired OSCC cell growth through inhibition of cell proliferation, induction of cell cycle arrest, senescence and apoptosis. In addition, we found that IFITM3 knockdown led to reduced expressions of CCND1 and CDK4 and reduced RB phosphorylation, leading to inhibition of OSCC cell growth. This information may be instrumental for the design of novel targeted therapeutic strategies.

    CONCLUSIONS: From our data we conclude that IFITM3 is overexpressed in OSCC and may regulate the CCND1-CDK4/6-pRB axis to mediate OSCC cell growth.

    Matched MeSH terms: Cell Aging
  19. Micromanipulation of culture niche permits long-term expansion of dental pulp stem cells--an economic and commercial angle
    Govindasamy V, Ronald VS, Totey S, Din SB, Mustafa WM, Totey S, et al.
    In Vitro Cell Dev Biol Anim, 2010 Oct;46(9):764-73.
    PMID: 20725801 DOI: 10.1007/s11626-010-9332-0
    Stem cells isolated from dental pulp possess the capacity for self-renewal and the potential for multi-lineage differentiation. However, dental pulp stem cells have different characteristics in terms of their culture conditions. The success of stem cells culture is governed by its micro-environmental niche. Therefore, we studied the effects of culture niche on long-term expansion of dental pulp stem cells in terms of cell morphology, growth kinetics, senescence pattern, cell surface marker expression differentiation capacity, and seeding plating density of dental pulp stem cells in four different, widely used media composition Among the various basal media tested, α-minimum essential media and knock out-minimum essential media supplemented with 10% fetal bovine serum were found to be the most optimal media composition in preserving the phenotypic characteristics and differentiation potential for prolonged periods as compared with DMEM-F12 and DMEM-LG. Plating density has been shown to affect overall yield. As a conclusion, the adoption of an appropriate culture system significantly improved cell yield, thus enabling the attainment of sufficient yields for therapeutic applications economizing in terms of cost of production and minimizing seeding cell density for maximum yield.
    Matched MeSH terms: Cell Aging/drug effects
  20. Chlorella vulgaris modulates the expression of senescence-associated genes in replicative senescence of human diploid fibroblasts
    Jaafar F, Durani LW, Makpol S
    Mol Biol Rep, 2020 Jan;47(1):369-379.
    PMID: 31642042 DOI: 10.1007/s11033-019-05140-8
    Human diploid fibroblasts (HDFs) cultured in vitro have limited capacity to proliferate after population doubling is repeated several times, and they enter into a state known as replicative senescence or cellular senescence. This study aimed to investigate the effect of Chlorella vulgaris on the replicative senescence of HDFs by determining the expression of senescence-associated genes. Young and senescent HDFs were divided into untreated control and C. vulgaris-treated groups. A senescence-associated gene transcription analysis was carried out with qRT-PCR. Treatment of young HDFs with C. vulgaris reduced the expression of SOD1, CAT and CCS (p cell differentiation and cell proliferation pathways was modulated by C. vulgaris during replicative senescence of human diploid fibroblasts.
    Matched MeSH terms: Cell Aging/drug effects*; Cell Aging/genetics*; Cell Aging/physiology
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